Automotive System Safety : Critical Considerations for Engineering and Effective Management.

Intro -- Title Page -- Contents -- SeriesEditor's Foreword -- Preface -- Abbreviations -- Chapter 1 Safety Expectations for Consumers, OEMs, and Tier 1 Suppliers -- Trustworthiness -- Consumer Expectations -- OEM Expectations -- Supplier Expectations -- Chapter 2 Safety Organizations -- The Need for a System Safety Organization -- Functions of a Safety Organization -- Critical Criteria for Organizational Success -- Talent to Perform the Safety Tasks -- Integral to Product Engineering -- Career Path for Safety Personnel -- Safety Process Owned by Program Management -- Executive Review -- Pillars of a Safety Process -- Alternatives, Advantages, and Disadvantages -- Chapter 3 System Safety vs. Functional Safety in Automotive Applications -- Safety Terminology -- Functional Safety Standards vs. System Safety -- Background -- Application of Functional Safety Standards -- Safety of the Intended Function (e.g. SOTIF, ISO PAS 21448) -- Triggering Event Analyses -- Background -- Systematic Analyses -- Validation -- Validation Targets -- Requirements Verification -- Release for Production -- Integration of SOTIF and Functional Safety and Other Considerations -- Background -- Analyses and Verification -- Validation -- Chapter 4 Safety Audits and Assessments -- Background -- Audits -- Audit Format -- Use of External Auditors -- Assessments -- System Safety Assessment -- Work Product Assessment -- Chapter 5 Safety Culture -- Background -- Characteristics of a Safety Culture -- Central Safety Organization -- Safety Managers -- Joint Development -- Enterprise Leadership -- Liability -- Customers -- Safety Culture vs. Organization -- Chapter 6 Safety Lifecycle -- Background -- Concept Phase Safety -- Preliminary Hazard Analysis -- Preliminary Architecture -- Requirements -- Design Phase Safety -- Design-Level Safety Requirements -- Verification.

Manufacturing Phase Safety -- Safety in Use -- Safety in Maintenance -- Safety in Disposal -- Chapter 7 Determining Risk in Automotive Applications -- Analyze What the Actuator Can Do -- Analyze Communication Sent and Received -- Determine Potential for Harm in Different Situations and Quantify -- Exposure -- Priority -- Consider Fire, Smoke, and Toxicity -- Chapter 8 Risk Reduction for Automotive Applications -- History -- Analysis of Architecture -- System Interfaces -- Internal Interfaces -- Requirements Elicitation and Management -- Three Sources of Requirements -- Cascading Requirements -- Conflicts with Cybersecurity -- Determination of Timing Risks in an Automotive Application -- Milestones -- Samples -- Program Management -- Design and Verification -- Sample Evaluation -- Verification -- Chapter 9 Other Discussion and Disclaimer -- Background -- Three Causes of Automotive Safety Recalls - Never "Random" Failures -- Failure Rates -- Recalls Due to Random Hardware Failures -- Causes of Recalls -- Completeness of Requirements -- Timing Risk -- "But It's Not in the 'Standard'" -- Competing Priorities -- Audits and Assessments -- Disclaimer and Motivation for Continuous Improvement -- Policy Statement -- Governance -- Metrics -- Process Documentation -- Tiered Metric Reporting -- Use of Metrics -- Chapter 10 Summary and Conclusions -- Background -- System Safety Is More than Functional Safety -- Safety Requirements -- Safety Process -- Five Criteria for a Successful Safety Organization Are Key -- Auditing and the Use of Metrics -- Auditing -- Metrics -- Future Considerations for SOTIF -- Machine Learning -- Appendix A IEC 51508 Compared to Typical Automotive Practices -- IEC 61508-1 - General Requirements -- IEC 61508-2 - Requirements for Electrical/Electronic/Programmable Electronic Safety-Related Systems -- IEC 61508-3 - Software Requirements.

IEC 61508-4 - Definitions and Abbreviations -- IEC 61508-5 - Examples of Methods for the Determination of SILs -- IEC 61508-6 - Guidelines on the Application of IEC 61508‐2 and IEC 61508-3 -- IEC 61508-7 - Overview of Techniques and Measures -- Appendix B ISO 26262 - Notes on Automotive Implementation -- Introduction -- ISO 26262-1 - Glossary -- Use of Terms -- Architecture -- ASIL -- T&amp -- B Terms and Other Terms -- FTTI -- Motorcycles -- Semiconductors -- Safety Manager -- ISO 26262-2 - Management of Functional Safety -- Safety Culture -- Cybersecurity -- Quality, Management, and Certification -- Impact Analysis and Safety Plan -- ISO 26262-3 - Concept Phase -- Initiation -- Functional Safety Concept -- ISO 26262-4 - Product Development at the System Level -- Technical Safety Concept -- Integration, Verification, and Validation -- ISO 26262-5 - Product Development at the Hardware Level -- Requirements and Architecture -- SPFM and LFM -- Random Hardware Failures -- Hardware Integration and Verification -- ISO 26262-6 - Product Development at the Software Level -- Software Development Process -- Software Architecture -- Verification -- ISO 26262-7 - Production, Operation, Service, and Decommissioning -- Quality Certification -- Safety Instructions -- Production Planning -- ISO 26262-8 - Supporting Processes -- Distributed Developments -- Requirements -- Configuration Management -- Verification -- Documentation -- Tool Classification and Qualification -- Qualified Components -- Proven-in-Use -- T&amp -- B -- ISO 26262-9 - Automotive Safety Integrity Level (ASIL)-Oriented and Safety-Oriented Analyses -- ASIL Decomposition and Coexistence -- Dependent Failure Analysis -- Other Analysis -- ISO 26262-10 - Guidelines on ISO 26262 -- Use of Terms -- Classifying and Combining Safety Goals -- Requirements -- Failure Rates -- SEooC -- Proven‐in‐Use.

ASIL Decomposition -- Fault Tolerance -- Tool Classification -- Critical Characteristics -- ISO 26262-11 - Guidelines on Application of ISO 26262 to Semiconductors -- Background -- IP -- Systematic Faults -- Failure Rate -- Dependent Failure Analysis -- Production and Operation -- Distributed Development -- Confirmation Measures -- Integration and Verification -- Analyses -- Faults -- Verification -- Analog Components -- PLDs -- Multi-Core Devices -- Sensors and Transducers -- MEMS -- Other Examples -- ISO 26262-12 - Adaptation for Motorcycles -- Background -- Hazard and Risk Analysis -- Verification and Validation -- References -- Index -- EULA.

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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.